Journal article
J. M. Meinig, S. Ferrara, Tapas Banerji, Tania Banerji, Hannah Sanford-Crane, D. Bourdette, T. Scanlan
ACS medicinal chemistry letters, 2018
ACS medicinal chemistry letters, 2018
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APA
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Meinig, J. M., Ferrara, S., Banerji, T., Banerji, T., Sanford-Crane, H., Bourdette, D., & Scanlan, T. (2018). Structure-Activity Relationships of Central Nervous System Penetration by Fatty Acid Amide Hydrolase (FAAH)-Targeted Thyromimetic Prodrugs. ACS Medicinal Chemistry Letters.
Chicago/Turabian
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Meinig, J. M., S. Ferrara, Tapas Banerji, Tania Banerji, Hannah Sanford-Crane, D. Bourdette, and T. Scanlan. “Structure-Activity Relationships of Central Nervous System Penetration by Fatty Acid Amide Hydrolase (FAAH)-Targeted Thyromimetic Prodrugs.” ACS medicinal chemistry letters (2018).
MLA
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Meinig, J. M., et al. “Structure-Activity Relationships of Central Nervous System Penetration by Fatty Acid Amide Hydrolase (FAAH)-Targeted Thyromimetic Prodrugs.” ACS Medicinal Chemistry Letters, 2018.
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@article{j2018a,
title = {Structure-Activity Relationships of Central Nervous System Penetration by Fatty Acid Amide Hydrolase (FAAH)-Targeted Thyromimetic Prodrugs.},
year = {2018},
journal = {ACS medicinal chemistry letters},
author = {Meinig, J. M. and Ferrara, S. and Banerji, Tapas and Banerji, Tania and Sanford-Crane, Hannah and Bourdette, D. and Scanlan, T.}
}
Abstract
Thyroid hormone (TH) action is of clinical interest in treating demyelinating diseases of the central nervous system (CNS). Two amide prodrugs of sobetirome, a potent thyroid hormone agonist, were previously shown to significantly improve CNS selective distribution of the parent drug through hydrolysis in the CNS by fatty acid amide hydrolase (FAAH). This concept is elaborated upon here with a series of 29 amide prodrugs targeting FAAH. We identify that conservative aliphatic modifications such as the N-methyl (4), N-ethyl (5), N-fluoroethyl (15), and N-cyclopropyl (18) substantially favor selective CNS distribution of the parent drug in mice. Additionally, lead compounds exhibit moderate to good rates of hydrolysis at FAAH in vitro suggesting both enzymatic and physicochemical properties are important parameters for optimization. Both 4 and 15 were orally bioavailable while retaining appreciable CNS parent drug delivery following an oral dose. The pharmacokinetic parameters of 4 over 24 h postdose (i.v. and p.o.) were determined.
